JP6571951B2 - Fire detector - Google Patents

Description

  The present invention relates to a fire sensor that performs a test and returns a test result signal when a test command is received.

Conventionally, fire alarms for apartments such as condominiums have fire detectors and fire detectors connected to external testers so that fire detectors can be inspected from the outside even when no resident is present. There is one interposed in a sensor line connecting the sensor. In such a fire alarm system, the fire receiver and the fire detector are normally connected, and when the external tester is connected to the relay device, the relay device disconnects the fire receiver and the fire detector. External tester and fire detector are connected. When the external tester is connected to the fire sensor, the external tester transmits a test command to the fire sensor and causes the fire sensor to execute a test (for example, Patent Document 1).
In general, a fire detector is equipped with a power storage unit such as a capacitor. The fire detector detects a momentary voltage fluctuation in the sensor line such as noise, or a momentary current increase inside the fire detector when a fire is detected. This prevents malfunctions and stoppages by preventing the internal voltage of the battery from decreasing.

JP 2006-48419 A

  When the fire detector is connected to the external tester from the state connected to the fire receiver, the power storage unit is charged by the power supply from the fire receiver, so the test from the external tester is immediately performed. Can operate according to instructions. However, when testing the fire detector with an external tester from the state where the fire receiver and fire detector are not connected, such as during construction, the fire detector will not operate until the power storage unit is charged. It took time to test the sensor.

  A fire detector according to the present invention is connected to a sensor line extending from a fire receiver, is supplied with power, and changes the voltage of the sensor line to notify a fire, and a test command is issued from an external tester. In a fire detector that performs a test when receiving a current detector, a current limiting unit that limits a current flowing into the fire detector, a power storage unit that prevents a decrease in the internal voltage of the fire detector, and a voltage monitoring unit that monitors the internal voltage When the test command is received, the voltage monitoring unit performs a test when the internal voltage is determined to be equal to or higher than the operable voltage, and when it is determined that the internal voltage is less than the operable voltage, And a test section for alleviating the problem.

According to the present invention, when a test command is received from an external tester, if the internal voltage of the fire detector is low, the current limit is relaxed and the power storage unit is rapidly charged to rapidly increase the internal voltage. Therefore, the fire detector can be operated quickly, and the test does not take time and the inspection time can be shortened.
In addition, since the rapid charging is stopped after the internal voltage rises, the burden on the battery of the external tester can be minimized.

It is a schematic block diagram which shows an example of the fire detector which concerns on embodiment of this invention, and a fire alarm equipment provided with the same. It is a schematic block diagram which shows an example of the fire detector which concerns on the modification of embodiment of this invention, and a fire alarm equipment provided with the same.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a schematic configuration diagram illustrating an example of a fire detector 30 according to an embodiment of the present invention and a fire alarm facility 1 including the same.
The fire alarm system 1 includes a fire detector 30 installed in each room of a building (for example, a housing complex such as a hotel or a condominium, an office building, or a commercial facility), and an alarm based on the detection result of the fire detector 30. The fire receiver 10 to be performed is connected by a receiver-side wiring 50 and a sensor-side wiring 51 which are sensor lines via a relay device 20 installed in a common part of the building. The external tester 40 tests the fire detector 30 from outside the room, and is connected to the relay device 20 via the tester connection line 52.

(Fire receiver configuration)
The fire receiver 10 includes a line power supply unit 11, a fire determination unit 12, and an alarm unit 13.
The line power supply unit 11 converts an AC voltage supplied from a commercial power supply (not shown) into, for example, DC 24V, and serves as a power source for the fire detector 30 by a receiver side wiring 50 and a sensor side wiring 51 which are sensor lines. The fire sensor 30 is supplied and energized. The line power supply unit 11 is a power supply circuit including a transformer and a smoothing circuit, or an AC / DC conversion power supply device.
Here, in FIG. 1, the receiver-side wiring 50 and the detector-side wiring 51 are a pair of pair wirings, and one of the pair wirings is connected to the plus of the line power supply unit 11 and the other is connected to the minus. Applied.

The fire determination unit 12 compares the voltage of the receiver-side wiring 50 with the fire threshold voltage, and when the received voltage is equal to or lower than the fire threshold voltage, the fire detector 30 generates a fire signal, that is, a fire Determined to occur.
When the fire determination unit 12 determines that a fire has occurred, the alarm unit 13 warns the occurrence of a fire by a display device (not shown) such as a display lamp or an LCD device and an acoustic device such as a buzzer or a speaker.

(Configuration of relay device)
The relay device 20 includes a tester detection unit 21 and a switching unit 22.
The tester detection unit 21 detects that the external tester 40 is connected to the relay device 20 via the tester connection line 52.
The switching unit 22 connects the sensor side wiring 51 to either the receiver side wiring 50 or the tester connection line 52. The switching unit 22 connects the detector-side wiring 51 and the receiver-side wiring 50 at normal times, and connects the fire detector 30 to the fire receiver 10. Then, when the tester detection unit 21 detects the connection of the external tester 40, the switching unit 22 connects the sensor-side wiring 51 and the tester connection line 52, and connects the fire detector 30 and the external tester 40. .

(Fire detector configuration)
Fire detectors include smoke detectors, heat detectors, flame detectors, and the like. Here, a photoelectric smoke detector that detects a fire by detecting smoke generated at the time of a fire will be described as an example.
The fire detector 30 includes a current limiting unit 31, a power storage unit 32, a voltage monitoring unit 33, a fire detection unit 34, a state output unit 35, and a test unit 36.
The current limiter 31 does not change the voltage of the sensor-side wiring 51 abruptly due to an inrush current immediately after the power supply to the fire detector 30 is started or a momentary large current such as when the fire detector 30 detects a fire. As described above, the current flowing into the fire detector 30 is limited. The current limiter 31 includes a normal limit that suppresses the voltage fluctuation of the sensor-side wiring 51 to a normal current value in a range in which the fire receiver 10 does not erroneously determine that a fire has occurred, and a normal current for rapidly charging the power storage unit 32. It is possible to perform two types of limiting, that is, a quick charging limitation that relaxes the current limitation to a rapid current value larger than the value.

  The power storage unit 32 is charged by a power source supplied from the fire receiver 10 or the external tester 40 via the sensor-side wiring 51 and stores electric charges. When the fire sensor 30 performs an operation that requires a large current instantaneously, such as when a fire is detected, the current storage unit 32 compensates for the shortage of current that is limited by the current limiting unit 31 and compensates for the internal current. In order to prevent a voltage drop, the fire detector 30 does not become inoperable or malfunction. The storage unit 32 fires when the relay device 20 switches the connection to the sensor side wiring 51 from the receiver side wiring 50 to the tester connection line 52 or from the tester connection line 52 to the receiver side connection line 50. The capacity is such that electric charges are released during a switching period in which no power is supplied to the sensor 30, and the fire sensor 30 does not become inoperable or malfunction.

The voltage monitoring unit 33 determines whether the voltage of the power storage unit 32 and the internal voltage of the fire detector 30 are equal to or higher than the operable voltage at which the fire detector 30 operates normally. The voltage monitoring unit 33 prohibits the fire detector 30 from malfunctioning by prohibiting the operation of the fire detector 30 until the voltage exceeds a predetermined voltage.
The fire detection unit 34 detects a fire by detecting smoke generated at the time of a fire, and has a light emitting unit and a light receiving unit (not shown). The fire detection unit 34 causes the light emitting unit to emit light every predetermined time as a fire detection operation. When smoke is present, the light is scattered by the smoke, and the scattered light is received by the light receiving unit. The fire detection unit 34 detects a fire when the scattered light received by the light receiving unit exceeds a predetermined amount of received light. The current consumption of the fire detector 30 is several tens of μA when the light emitting part is not emitting light, whereas when the light emitting part is caused to emit light, a current of several hundred mA and about 10,000 times as large is passed. There is a need.

When the fire detection unit 34 detects a fire, the state output unit 35 is in a low impedance state, lowers the line impedance of the sensor side wiring 51 and decreases the voltage of the sensor side wiring 51, and fires. Notify the receiver 10 of the occurrence of a fire.
When the test unit 36 receives a test command from the external tester 40 via the sensor-side wiring 51, the test unit 36 causes the fire detection unit 34 to perform a test. Based on the test result of the fire detection unit 34, the test unit 36 sets the state output unit 35 to a low impedance state and returns the test result of the fire detector 30 to the external tester 40. In addition, when the test unit 36 receives a test command from the external tester 40 and the internal voltage of the fire detector 30 is equal to or lower than the operable voltage, the test unit 36 switches the current limiter 31 to the quick charge limit to limit the current. To ease.

(Configuration of external tester)
The external tester 40 includes a battery 41, a connection detection unit 42, a test control unit 43, and a result display unit 44.
The battery 41 supplies power to the external tester 40 to operate the external tester 40. Further, the battery 41 supplies power to the fire detector 30 through the tester connection line 52.
The connection detector 42 detects that the external tester 40 is connected to the relay device 20 via the tester connection line 52.
When the external tester 40 is connected to the relay device 20, the test control unit 43 transmits a test command to the fire detector 30. The test control unit 43 receives the return of the test result from the fire detector 30 and determines the test result.
The result display unit 44 includes an indicator lamp such as an LED and an LCD device, and displays the test result of the fire detector 30 based on the determination of the test result of the test control unit 43.

(Operation of fire alarm equipment including fire detectors)
The operation of the fire alarm facility 1 including the fire detector 30 will be described.
The fire alarm system 1 starts operating when power is supplied to the fire receiver 10.
When power is supplied to the fire receiver 10, power is supplied from the line power supply unit 11 to the receiver side wiring 50, and the switching unit 22 of the relay device 20 connects the receiver side wiring 50 and the sensor side wiring 51. The power is supplied to the fire detector 30.
When the power is supplied to the fire detector 30, the current limiter 31 normally limits the current, the current flows into the fire detector 30 according to the normal current value, and the power storage unit 32 is gradually charged.
The voltage monitoring unit 33 permits the operation of the fire detection unit 34 when the power storage unit 32 is charged and the internal voltage of the fire detector 30 becomes equal to or higher than the operable voltage.

  When the operation is permitted, the fire detection unit 34 performs a fire detection operation by causing the light emitting unit to emit light every predetermined time (for example, every 3 seconds). The current for causing the light emitting unit to emit light is larger than the normal limit by the current limiting unit 31, but since the shortage current is supplied from the power storage unit 32, the internal voltage of the fire detector 30 does not decrease and the fire detector 30 continues the fire detection operation without malfunction. Moreover, since the voltage fluctuation of the sensor side wiring 51 does not occur, the fire receiver 10 does not erroneously determine that a fire has occurred. The power storage unit 32 is charged between fire detection operations.

When the fire detection unit 34 detects the occurrence of a fire by the fire detection operation, the state output unit 35 enters a low impedance state, lowers the voltage of the sensor side wiring 51 and the receiver side wiring 50, and the fire receiver 10. Will be notified of the fire.
When the voltage of the receiver-side wiring 50 becomes equal to or lower than the fire threshold voltage, the fire determination unit 12 of the fire receiver 10 determines that a fire has occurred, and the alarm unit 13 warns that a fire has occurred.

Next, an operation when the external tester 40 is connected to the relay device 20 in order to test the fire detector 30 from outside the room will be described.
In the relay device 20, when the external tester 40 is connected via the tester connection line 52, the tester detection unit 21 detects the connection of the external tester 40, and the switching unit 22 connects to the sensor-side wiring 51. The connection is switched from the receiver side wiring 50 to the tester side connection line 52. As a result, the power supplied to the fire detector 30 via the detector-side wiring 51 is switched from the fire receiver 10 to the external tester 40.
Since the fire detector 30 is not supplied with power from either the fire receiver 10 or the external tester 40 during the period when the supply of power from the fire receiver 10 to the external tester 40 is switched (for example, for 10 ms), the power storage unit 32 The current is supplied from and the operation is continued.

When the external tester 40 detects that the connection detection unit 42 is connected to the relay device 20, the test control unit 43 varies the voltages of the tester connection line 52 and the sensor-side wiring 51 to generate a plurality of rectangular waves. A test command combining pulses is transmitted to the fire detector 30.
When the test unit 36 of the fire detector 30 receives a test command from the external tester 40, the fire detector 30 determines that the voltage monitor 33 determines that the internal voltage of the fire detector 30 is equal to or higher than the operable voltage. Let 34 do the test. As a test operation, the fire detection unit 34 confirms whether the light emission unit emits light and the amount of emitted light is not reduced, or whether the amount of light received by the light receiving unit is reduced.

When the test is completed, the state output unit 35 changes the voltage of the sensor side wiring 51 and returns the test result to the external tester 40. The test result may be returned by a combination of a plurality of rectangular wave pulses indicating whether the test is normal or abnormal. In the normal case, the voltage of the sensor-side wiring 51 is reduced to a predetermined value or less for 100 ms, In the case of an abnormality, it may be reduced for 200 ms and returned by the difference in the width of one pulse.
When the external tester 40 receives the test result from the fire detector 30, the test control unit 43 determines the test result, and the result display unit 44 displays whether the test is normal or abnormal based on the determination result.
If the test result is not returned from the fire detector 30 even though the test command is transmitted, the external tester 40 retransmits the test command to the fire detector 30 a plurality of times (for example, three times). If the test result is not yet returned, the result display unit 44 displays that the test cannot be performed.

Next, when the fire receiver 10 and the relay device 20 are not connected, for example, the fire alarm facility 1 is under construction and the fire receiver 10 is not installed, or the fire detector 30 and the relay device 20 are in the room. A case where the fire detector 30 is tested by the external tester 40 when it is installed but not connected to the fire receiver 10 will be described.
When the external tester 40 is connected to the relay device 20 via the tester connection line, the tester detection unit 21 detects the connection of the external tester 40, and the switching unit 22 detects the sensor side wiring 51 and the tester side. The connection line 52 is connected to supply power to the fire detector 30.
When the external tester 40 detects that the connection detection unit 42 is connected to the relay device 20, the test control unit 43 transmits a test command to the fire detector 30.

In the fire detector 30, when the test unit 36 receives a test command from the external tester 40, the voltage monitoring unit 33 determines whether the internal voltage of the fire detector 30 is equal to or higher than the operable voltage.
However, unlike the case where the fire detector 30 is tested from the state where the fire detector 30 is connected to the fire receiver 10, the internal voltage of the fire detector 30 is less than the operable voltage. This is because the power storage unit 32 of the fire detector 30 was empty until power was supplied from the external tester 40.

  Therefore, the test from the test unit 36 to the fire detection unit 34 is not executed. Instead, the test unit 36 switches from the normal limit to the quick charge limit in order to relax the current limit of the current limiter 31, rapidly charges the power storage unit 32, and rapidly increases the internal voltage. Here, the rapid current value at the time of the rapid charging limitation is that the test voltage is not returned, so that the internal voltage of the fire detector 30 is higher than the operable voltage until the next test command retransmitted by the external tester 40 is received. It becomes the electric current value with which the electrical storage part 32 is charged so that it may become high.

When the test unit 36 receives the test command retransmitted from the external tester 40, the fire detector 30 determines that the voltage monitor 33 determines that the internal voltage of the fire sensor 30 is equal to or higher than the operable voltage. The fire detection unit 34 is made to perform a test. Then, the test unit 36 switches the current limiting unit 31 from the quick charge limitation to the normal limitation, and releases the relaxation of the current limitation.
In addition, when the current limiter 31 is in the quick charge limit, the test unit 36 returns the current limiter 31 to the normal limit when the test command cannot be received from the external tester 40 after a predetermined time has elapsed.

When the test is completed, the state output unit 35 changes the voltage of the sensor side wiring 51 and returns the test result to the external tester 40.
When the external tester 40 receives the test result from the fire detector 30, the test control unit 43 determines the test result, and the result display unit 44 displays whether the test is normal or abnormal based on the determination result.

As described above, when the fire detector 30 receives a test command from the external tester 40 and the internal voltage is low, the fire detector 30 relaxes the current limit of the current limiter 31 and rapidly charges the power storage unit 32. Since the internal voltage is rapidly increased, the fire detector can be quickly tested, and the test does not take much time and the inspection time can be shortened.
In addition, since the relaxation of the current limit of the current limiter 31 is stopped after the internal voltage increases, the burden on the battery 41 of the external tester 40 can be minimized.
The rapid current value only needs to be a current value at which the internal voltage of the fire detector 30 becomes equal to or higher than the operable voltage by the start of reception of the final test command retransmitted from the external tester 40. In addition, the timing at which the fire detector 30 switches to the quick charge limit is not after receiving all of the test commands from the combination of a plurality of square wave pulses from the external tester 40, but by receiving several pulses. Or the time when the edge of the first pulse is determined.

FIG. 2 is a diagram showing a modification of the embodiment of the present invention.
In the embodiment of the present invention, when the test unit 36 receives a test command from the external tester 40, whether or not the voltage monitoring unit 33 determines that the internal voltage of the fire detector 30 is equal to or higher than the operating voltage, Although the execution of the test and the current limitation of the current limiting unit 31 are switched, in the modification, the voltage monitoring unit 33 is deleted, and the testing unit 36 operates as follows.

  When receiving the test command from the external tester 40, the test unit 36 of the fire detector 30 switches from the normal limit to the quick charge limit in order to relax the current limiter 31, and charges the power storage unit 32 rapidly. The test unit 36 returns the current limiter 31 from the quick charge limit to the normal limit after a predetermined time has elapsed, and causes the fire detection unit 34 to perform the test. Here, the product of the rapid current value at the time of the rapid charge limit and the predetermined time to switch to the rapid charge limit is the internal voltage up to a voltage at which the fire detector 30 can operate before the next test command retransmitted from the external tester 40 is received. Is a rising value.

  As described above, in the modification of the embodiment of the present invention, when the test command is received from the external tester, the test unit 36 relaxes the current limit of the current limiter 31 and rapidly charges the power storage unit 32. Since the internal voltage is rapidly increased, the fire detector can be operated quickly, and the test takes less time and the inspection time can be shortened.

DESCRIPTION OF SYMBOLS 1 Fire alarm equipment, 10 Fire receiver, 11 Line power supply part, 12 Fire judgment part, 13 Alarm part, 20 Relay device, 21 Tester detection part, 22 Switching part, 30 Fire detector, 31 Current limiting part, 32 Electric storage Unit, 33 voltage monitoring unit, 34 fire detection unit, 35 status output unit, 36 test unit, 40 external tester, 41 battery, 42 connection detection unit, 43 test control unit, 44 result display unit, 50 receiver side wiring, 51 Sensor side wiring, 52 Tester connection line

Claims (1)

A fire detector connected to a sensor line extended from a fire receiver, supplied with power, changes the voltage of the sensor line to notify a fire, and performs a test when receiving a test command from an external tester In
A current limiter that limits the current flowing into the fire detector;
A power storage unit that prevents a drop in the internal voltage of the fire detector,
A voltage monitoring unit for monitoring the internal voltage;
When the voltage monitoring unit determines that the internal voltage is equal to or higher than the operable voltage when the test command is received, the current limit of the current limiting unit is relaxed when it is determined that the internal voltage is less than the operable voltage. And a fire detector.